RU182645U1 - Modular submersible pump installation - Google Patents

Abstract

The utility model relates to the oil industry, in particular to installations with positive displacement pumps driven by submersible linear electric motors. The technical result consists in increasing the manufacturability of manufacturing, which leads to significant savings in working time with an increase in output. Also, the modularity of the design significantly increases its operational characteristics, in particular, maintainability, allowing the pumping unit to resume work in the shortest possible time.

The essence of the claimed technical solution lies in the fact that the submersible pump installation is made in the form of modules enclosed in separate housings, connected to each other by means of a detachable connection, with the formation of a single oil-filled system, including a plunger pump module, a linear motor module, as well as hydraulic compensation and telemetry modules . The modules of the linear electric motor and hydraulic compensator include blocks of hydromechanical dampers of the upper and lower extreme points of the slider stroke. The plunger pump module is connected to the indicated slider by means of a centering element passing through the cavity of the hydromechanical damper of the upper extreme point. The linear electric motor module is mechanically coupled to the hydraulic compensator module, configured to slow down the slider by means of a hydromechanical damper of the lower extreme point, and also to control the oil level in the system, and is electrically connected to the telemetry module, the elements of which are protected from moisture and vibration. 2 s.p. f-ly; 2 of FIG.

Description

The utility model relates to the oil industry, in particular, to installations with positive displacement pumps driven by linear submersible electric motors and can be used to extract formation fluids from a low-yield well stock from great depths.

The principle of the implementation of the reciprocating movement of the plungers of the pump is the basis of the action of the well-known pumping well installations.

In the proposed device for driving the plungers of the pump, a linear valve submersible motor LPED is used. Known LPED contain inductance coils forming a fixed part - a stator, as well as a moving part - slides formed by permanent magnets located in the stator bore. The specified slider is connected with the plungers of the pump with the possibility of transmitting reciprocating motion. Changing the voltage polarity in the stator winding provides translational movement of the slider in the longitudinal direction. This type of equipment has been widely used in wells with low flow rates of less than 25 m ³ / day, and since the number of such wells is increasing every year, such installations are becoming more and more popular. For these reasons, increasing demands are placed on manufacturability, maintainability and reliability of submersible pumping units.

Most currently known operating pumping units include a reciprocating plunger pump and a linear motor connected to it by means of a threaded connection with telemetry units enclosed in a single housing, as well as a hydraulic protection unit. This embodiment of the pump installation is not sufficiently maintainable and not convenient to operate.

From the application for the invention US2015 / 0176574A1, F04B 47/00 06/25/2015, there is known an installation comprising a submersible borehole pump consisting of a fixed cylinder and a movable plunger, as well as a submersible motor connected to the borehole pump by means of a threaded or flange connection. The specified engine connected to the plunger of a submersible borehole pump, and is configured to form a reciprocating motion of the plunger.

The disadvantage of this technical solution is the relatively low reliability associated with the lack of telemetry units and hydraulic lifter.

From the patent for the invention RU2549381 from 04/27/2015, IPC F04B 47/06; F04B 17/03 a linear electric motor is known, the submersible pump installation which contains a sealed stator with cores with coils, current lead and head installed in it for connecting to the pump. In the stator there is a movable rod with a connecting rod for connection to the pump plunger and an active sealed slider connected to the rod by means of a connecting sleeve. The slider contains sequentially installed permanent magnets. The head is connected to the stator housing by a threaded connection through spacers with sealing elements. A compensator with an elastic diaphragm is attached to the stator base, in a similar way, which is made in the form of a bubble having a diameter in the middle part greater than the diameter of each end part thereof, one end of the diaphragm connected to the stator base and its other end connected to a coupling connecting the electric motor with compensator.

The disadvantages of the described technical solutions include the lack of telemetry unit and control elements of the motor, which can lead to its inefficient operation.

Also, from patent for invention RU2615775 dated 04/11/2017, IPC F04B 47/06; F04B 17/03, there is a well-known downhole pumping installation installed in a wellbore, comprising a submersible part including a plunger pump arranged in a single housing, equipped with discharge valves and a gravity gas separator, over which a check valve block is installed, containing a connecting sleeve for attaching the downhole pump installation to the tubing string, as well as a submersible linear electric motor installed under the plunger pump, which includes a fixed part in the form of a stat ra with three-phase winding set and temperature sensors, and disposed in the bore of the stator movable portion as a slider adapted for reciprocating movement relative to the stator. A telemetry unit is placed under the linear motor, including pressure and temperature sensors for the borehole fluid, a vibration sensor, an inclinometer, and a measurement unit connected to temperature sensors installed in the linear motor and connected to the ground control unit through the zero point of the linear motor windings connected by a star.

The described design is a working example of a submersible pump installation, which is currently in operation, the disadvantages of the described technical solution include the design in a single housing, which can complicate its operation and reduce manufacturability, as well as maintainability.

We take the specified technical solution for the closest analogue.

The technical problem to which the claimed technical solution is directed is the creation of a submersible pump unit of modular design with improved performance and manufacturability.

The technical result achieved from the implementation of the utility model is to increase the manufacturability of manufacturing, which makes it possible to produce individual installation modules regardless of the completeness of the assembly stages and lead to significant savings in working time with an increase in output. Also, the modularity of the design significantly increases its operational characteristics, in particular - maintainability, allowing the replacement of faulty modules and in the shortest possible time to resume the operation of the pumping unit.

The essence of the claimed technical solution lies in the fact that the submersible pump installation is made in the form of modules enclosed in separate housings connected to each other by means of a detachable connection, with the formation of a single oil-filled system, including a plunger pump module, a linear motor module, and also hydraulic compensation modules and telemetry. The modules of the linear electric motor and hydraulic compensator include blocks of hydromechanical dampers of the upper and lower extreme points of the slider stroke of the linear electric motor. The plunger pump module is equipped with a labyrinth gas separation system and is connected to the indicated slider by means of a centering element passing through the cavity of the hydromechanical damper of the upper extreme point. A linear electric motor module mechanically coupled to a hydraulic compensator module capable of slowing down its moving part (slider) by means of a hydromechanical damper of the lower extreme point, and also with the ability to control the oil level in the system and is electrically connected to a telemetry module, the elements of which are protected from moisture and vibrations. The linear motor module includes a movable slider, which is placed inside the stator bore, made in the form of a pipe, with the formation of a wear-resistant friction pair. The elements of the telemetry module are protected from moisture and vibration through a coating of a polymer material. The detachable connection is made according to the principle of a flange connection, consisting of butt-mounted modules installed on the ends, threaded bushings, while one of the bushings contains a flange, and the second is a mating part with pre-installed studs.

According to a preferred embodiment of the utility model, the blocks of hydromechanical dampers of the upper and lower extreme points of the slider stroke are integrated in the linear motor and hydraulic compensator modules, while the hydromechanical damper of the upper extreme point is enclosed in a separate housing and connected to the housing of the linear electric motor module by means of threaded bushings.

Also, according to another preferred embodiment of the utility model, the detachable connection of the modules is made according to the principle of a flange connection, consisting of butt-mounted modules installed at the ends, threaded bushings, one of the bushings containing a flange, and the second is a mating part with pre-installed studs.

The essence of the proposed technical solution is illustrated, but not limited to the following graphic materials.

figure 1 - modular submersible pump installation in the context.

figure 2 is a connecting element of the modules of a submersible pump installation.

The claimed technical solution provides for various options and alternative forms of implementation. A specific embodiment is disclosed in the description and shown by means of the given graphic materials. The described embodiment of the utility model is not limited to the specific form disclosed and may cover all possible embodiments, equivalents and alternatives, within the essential features disclosed in the formula.

The inventive modular submersible pump installation includes many segments installed in the wellbore.

These segments are made in the form of modules enclosed in separate housings connected to each other by means of a plug-in connection with the formation of a single oil-filled system, including a plunger pump module 1, a linear motor 2 module, as well as hydraulic compensator modules 3 and telemetry 4. Moreover, the linear electric motor modules and hydraulic compensators include blocks of hydromechanical dampers of the upper 5 and lower 6, extreme points of the course of the moving part of the electric motor (slider) 7 of the linear electric motor. These blocks are built into the modules of the linear electric motor 2, and the hydraulic compensator 3, respectively.

The detachable connection is made on the principle of a flange connection, consisting of installed on the ends of the abutting modules, threaded bushings 8, 9, while one of the bushings contains a flange 10, and the second is a mating part, with pre-installed studs 11.

The module of the plunger pump 1, is equipped with a labyrinth, gravitational gas separation system, and is connected to the indicated slider 7 by means of a centering element 12, in the form of a rod passing through the cavity of the hydromechanical damper 5 of the upper extreme point.

The linear motor module 2 includes a fixed part in the form of a stator 13 with a three-phase winding, in the stator cavity with the formation of a wear-resistant friction pair, a mobile part is located in the form of a slider 7, made with the possibility of reciprocating motion relative to the stator 13. The specified slider is rigidly connected by said centering element with a movable part of the plunger pump.

The LPED module is mechanically connected to the hydraulic compensator module 3, which is capable of slowing down the slider 7, by means of the built-in hydromechanical damper 6 of the lower extreme point, and also with the ability to control the oil level in the system, providing compensation for the temperature expansion of the lubricating fluid through an elastic diaphragm (in the images shown). Also, the LPED is electrically connected to the telemetry module 4, the elements of which are protected from moisture and vibration through a coating of a polymeric material, such as a compound.

Blocks of hydromechanical dampers (5; 6) of the upper and lower extreme points of the slider 7 stroke are built into the modules of the linear electric motor and hydraulic compensator. The hydromechanical damper 5 of the upper extreme point is enclosed in a separate housing 14 and connected to the housing of the linear electric motor module by means of threaded sleeves 15.

Standard sizes of modules allow to carry out work on transportation and installation of a submersible pump unit without presenting special requirements for hoisting-and-transport machines.

The assembly of the pump installation is carried out sequentially, by means of a flange connection of the modules, made in the form of threaded sleeves installed at the ends of the modules to be joined, one of the sleeves contains a flange, and the second is a mating part with pre-installed studs.

The implementation of the described technical solution contributes to the achievement of the claimed technical result, providing an increase in the manufacturability of the plant with the possibility of unification of production. It also provides an increase in operational characteristics, in particular maintainability, allowing as soon as possible to resume the operation of the pumping unit, by replacing modules that have failed or have exhausted the life allocated to them.

Claims (3)

1. A modular submersible pump installation, including many segments installed in the wellbore, characterized in that it is made in the form of modules enclosed in separate housings, connected to each other by means of a detachable connection, with the formation of a single oil-filled system including a plunger pump module, module a linear electric motor, as well as hydraulic compensator and telemetry modules, while the linear electric motor and hydraulic compensator modules include blocks of hydromechanical dampers of the upper and the lower extreme points of the course of the moving part of the linear electric motor, the plunger pump module is equipped with a labyrinth gas separation system and is connected to the indicated moving part by means of a centering element passing through the cavity of the hydromechanical damper of the upper extreme point, the linear electric motor module mechanically connected to the hydraulic compensator module, designed to slow down its moving part by means of the built-in hydromechanical damper of the lower extreme point, as well as with the possibility of w oil level in the system, and is electrically coupled to the telemetry module, wherein the elements are protected from moisture and vibration. 2. The modular submersible pump installation according to claim 1, characterized in that the blocks of hydromechanical dampers of the upper and lower extreme are integrated in the linear motor and hydraulic compensator modules, while the hydromechanical damper of the upper extreme point is enclosed in a separate housing and connected to the housing of the linear electric motor module by threaded bushings. 3. The modular submersible pump installation according to claim 1, characterized in that the detachable connection of the modules is made according to the principle of a flange connection, consisting of installed at the ends of the mating modules, threaded bushings, while one of the bushings contains a flange, and the second is a mating part, with preinstalled studs.

Images